Engineering plastic lubricant is an important type of additive which enables easier processing of engineering plastics. It helps to process plastic parts and components by manufacturing them at a lower viscosity hence lowering the friction during manufacturing. This lubricant has to be stable under heat to withstand high processing temperatures and function as a good mold release agent. It also helps in minimizing wastage of energy and improves the efficiency of the plastic extrusion or injection molding process.
Xiang Xi Engineering Plastic Lubricant is a formulation designed for high-performance engineering plastics, enhancing wear and tear, reducing friction, and improving working conditions. It is used in high temperature, high pressure, and complex mechanical environments. XiangXi lubricants have excellent chemical and corrosion resistance, making them suitable for various industries like automotive, electronics, and chemicals. They ensure smooth, stable equipment, increase reliability, and production efficiency.
Particularly in high-stress conditions, XiangXi’s Engineering Plastic Lubricant makes use of an innovative, high-tech mix meant to improve the wear resistance of engineering plastics. Even under extreme load or extended use, this lubricant greatly lowers wear and friction. Forming a protective coating on the surface of engineering plastics reduces damage from abrasion and wear, therefore extending the lifetime of goods or parts produced from these materials. Our lubricant provides outstanding performance and durability whether utilized in mechanical components or footwear soles.
At XiangXi, we prioritize environmental sustainability. Our Engineering Plastic Lubricant is crafted using natural raw materials, ensuring that it is non-toxic and safe for both human health and the environment. The composition is free from harmful chemicals, making it suitable for a variety of applications, including those that involve direct contact with skin or sensitive materials. The lubricant is odorless and poses no risk of toxicity, even with prolonged exposure, thus guaranteeing the safety and comfort of users.
Our Engineering Plastic Lubricant is designed to work seamlessly with a wide range of materials, including rubber, leather, polyurethane, and other engineering plastics commonly used in shoe soles and industrial applications. Whether for casual, sports, or formal footwear, our lubricant ensures that the soles remain functional and aesthetically appealing across different settings. In high-frequency use environments, such as outdoor activities or sports, it provides enhanced protection, reducing wear and tear and preventing cracks from forming over time.
XiangXi’s Engineering Plastic Lubricant is incredibly easy to apply. Simply apply a thin, even layer to the surface of the engineering plastic, allow it to dry, and it forms a durable protective coating. This protective layer helps to extend the life of products by reducing wear and maintaining their appearance. Ideal for both commercial vendors and individual consumers, the lubricant is simple to use, saving time and ensuring that each item lasts longer. Whether you’re enhancing the performance of industrial parts or prolonging the lifespan of footwear, XiangXi’s lubricant delivers long-term benefits.
Carefully developed to maximize the protective qualities of modern engineering plastics, XiangXi Engineering Plastic Lubricant guarantees best performance and durability. This lubricant is meant to combine perfectly with contemporary technology and excellent workmanship. Our technical plastic lubricant is designed to increase the operational lifetime, preserve the integrity of plastic components, and offer constant protection for regular use as well as high-intensity industrial gear. Every bottle of our product is evidence of our unrelenting quest of excellence and efficiency, so guaranteeing that your engineering plastics keep best performance under many different circumstances.
At XiangXi, we understand that engineering plastic lubricants are not just auxiliary tools but also very vital for extending the lifetime of engineering plastics. Having years of experience in research and development, we provide customers all over quality protective solutions. Whether your application calls for high-intensity industrial gear, precision tools, or regular consumer products, our engineering plastic lubricant offers extraordinary protection performance. XiangXi’s products have helped many different companies and sectors to reduce wear on plastic components and prolong the comfort and lifetime of their goods. Reflecting our continuous dedication to quality, efficacy, and innovation, each bottle of our engineering plastic lubricant is committed to provide lifetime protection for every engineering plastic component.
What is an Engineering Plastic Lubricant?
Engineering Plastic Lubricants are additives that form a lubricating film between plastic molecules, reducing the intermolecular forces, lowering the viscosity of the plastic, and improving its flow properties.
What are the primary functions of Engineering Plastic Lubricants?
The primary functions include reducing the coefficient of friction, lowering the force and energy consumption during metal plastic deformation; improving product surface quality and reducing defects; reducing mold wear, extending mold life, lowering production costs, and increasing efficiency.
What types of Engineering Plastic Lubricants are there?
Based on the lubrication mechanism, Engineering Plastic Lubricants can be categorized into boundary lubrication, fluid lubrication, and mixed lubrication.
How to select the appropriate Engineering Plastic Lubricant?
The selection of an appropriate Engineering Plastic Lubricant should consider its thermal stability, low volatility, good mold release properties, and flowability, especially for engineering plastics that require high-temperature processing.
How important is the Engineering Plastic Lubricant during the processing?
Engineering Plastic Lubricants play a significant role in improving the exposure of glass fibers in glass-reinforced engineering plastics, thereby improving the surface roughness of the glass-reinforced engineering plastics.